Mondéjar Corbalán, Irene

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Mondéjar Corbalán, Irene

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Mondéjar Corbalán, Irene

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Universidad de Murcia. Departamento de Atención Sociosanitaria

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Calreticulin from suboolemmal vesicles affects membrane regulation of polyspermy
(2014-02-05) Saavedra MD; Coy, Pilar; Betancourt, M; González-Marquez, H; Mondéjar Corbalán, Irene; Jíménez Movilla, María; Avilés Sánchez, Manuel; Romar Andrés, Raquel; Fisiología; Facultades de la UMU
This study was designed to determine whether calreticulin (CRT), a chaperone protein, is present in in vitro-matured (IVM) pig oocytes and to study its potential role in the block to polyspermy. Western blot analysis, using an anti-CRT antibody, of oocyte lysate showed an immunoreactive band of w60 kDa. Simultaneous labeling of IVM oocytes with anti-CRT antibody and peanut agglutinin lectin (PNA lectin, a porcine cortical granules (CG)-specific binding lectin) revealed localization of CRT in the subplasmalemmal region with a 27.7% colocalization with PNA staining. After IVF, PNA labeling was not observed and anti-CRT labeling decreased significantly in zygotes and disappeared in two-cell embryos. Western blot analysis of oocyte exudate obtained from zona pellucida (ZP)-free oocytes activated with calcium ionophore confirmed the presence of a band that reacted with an anti-CRT antibody. Anti-CRT antibody and PNA labeling were not observed in activated oocytes despite being detectable in non-activated oocytes. The presence of CRT in vesicles located under the oolemma was demonstrated using immunogold cytochemistry at the ultrastructural level. To study the role of CRT in fertilization, ZP-enclosed and ZP-free oocytes were incubated with exogenous CRT and then inseminated. Whereas ZP-free oocytes showed fewer penetrating sperm and lower polyspermy rates than untreated oocytes, the opposite effect was observed in ZP-enclosed oocytes. In conclusion, CRT is confined to subplasmalemmal vesicles partially overlapping with CG contents. Its exocytosis after the oocyte activation seems to participate in the membrane block to polyspermy in pigs but is not involved in the ZP block.
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Fertilization outcome could be regulated by binding of oviductal plasminogen to oocytes and by releasing of plasminogen activators during interplay between gametes
(2012-02-02) Grullón, LA; Mondéjar Corbalán, Irene; García Vázquez, Francisco Alberto; Romar Andrés, Raquel; Coy Fuster, Pilar; Coy Fuster, Pilar; Fisiología; Facultades de la UMU
Objective: To detect plasminogen and plasminogen activators (PA) in oviduct and oocytes and to clarify the role of the plasminogen/plasmin system on mammalian fertilization. Design: Experimental prospective study. Setting: Mammalian reproduction research laboratory. Animal(s): Oviducts and ovaries from porcine and bovine females were collected at slaughterhouse. A total of 52 oviducts and 2,292 oocytes were used. Boar and bull ejaculated spermatozoa were also used. Intervention(s): Plasminogen concentration in oviductal fluid (OF) through the cycle was measured. Immunolocalization of plasminogen and PAs in oocytes was carried out before and after fertilization. Porcine and bovine oocytes were in vitro fertilized, with plasminogen and plasmin added to the culture medium at different concentrations. Main Outcome Measure(s): Plasminogen concentration in OF. Plasminogen and PAs immunolocalization in oocytes. Penetration and monospermy rates, number of spermatozoa in the ooplasma and on the zona pellucida (ZP) after IVF. Result(s): Oviductal fluid contains about 92 mg/mL of plasminogen. The mature oocyte shows immunoreactivity toward plasminogen and toward PAs on its oolemma and ZP. After fertilization, plasminogen and PAs immunolabeling decreases in the oocyte, suggesting its conversion into plasmin. When exogenous plasminogen is added to the IVF medium, sperm entry into the oocyte is hampered, suggesting that the role of plasminogen activation during fertilization is to reduce the number of (or to select) penetrating spermatozoa. Conclusion(s): The plasminogen/plasmin system is activated during gamete interaction and regulates the sperm entry into the oocyte
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The human is an exception to the evolutionarily-conserved phenomenon of pre-fertilization zona pellucida resistance to proteolysis induced by oviductal fluid
(2014-01-04) Mondéjar Corbalán, Irene; Avilés Sánchez, Manuel; Coy Fuster, Pilar; Coy Fuster, Pilar; Fisiología
study question: Is zona pellucida (ZP) resistance to proteolysis, induced by oviductal fluid (OF), a mechanism common to species other than the pig and cow? summary answer: ZP resistance to proteolysis induced by OF was observed in the mouse, rat, hamster, rabbit, sheep, goat, pig and cow, but not in humans. what is known already: Oviductal ZP resistance to proteolysis occurs in the pig and cow where it influences the incidence of fertilization and polyspermy. The effect is observed after incubation of ZP in OFs from pig (pOF), cow (cOF), rabbit (rOF) and sheep (sOF). study design, size, duration: Oocytes from nine different species, including ungulates, rodents, lagomorphs and primates were incubated in rOF, sOF, gOF, cOF, pOF and human oviductal fluid (hOF). ZP digestion times for the matured oocytes of these nine species, without any treatment or incubated in 5 (mouse, rat, hamster, rabbit, cow, ewe and goat) or 6 (pig and humans) of the OFs collected were compared using three replicates per treatment and at least three oocytes per replicate. materials, setting, methods: In vivo matured oocytes from rat, hamster, mouse, rabbit and humans, in vitro matured oocytes from cow, goat, ewe and pig and rOF, cOF, gOF, sOF, pOF and human (hOF) were collected and processed for the study. Oocytes from each species were incubated in the different OFs for 30 min. The resistance of the ZP of the oocytes to enzymatic digestion in a pronase solution (0.5% in PBS) was measured and registered as ZP digestion time. main results and the role of chance: rOF increased ZP resistance to proteolytic digestion in the range of between 96 and 720 h for any of the species tested, whereas the corresponding increase in human ZP was only 1 min. OFs from the remaining species also had a significant effect, with variations among the cross-species experiments (P , 0.05). hOF, which was only tested on human and porcine oocytes, had no effect on ZP chemical hardening. Measurements of ZP digestion times are not of extreme accuracy and errors of a few seconds can be assumed in the experimental data. However, when differences are in the range of hours among treatments, variations measured in seconds do not alter the robustness of the findings. limitations, reasons for caution: Human oocytes and OF were of limited access, compared with oocytes from species collected in slaughterhouses. OFs from mouse, rat and hamster were not tested due to the small size of the genital tract in these species and the small volume of fluid available. wider implications of the findings: Since oviductal modification of ZP resistance to proteolytic digestion has been demonstrated to influence fertilization and this pre-fertilization mechanism is considered to contribute to the control of polyspermy, the apparent absence of this mechanism in humans suggests that the regulation of polyspermy depends mainly on other mechanisms, most probably of cortical granule origin. Investigation into a possible relationship between the lack of oviductal ZP hardening in human oocytes and the existence of tubal ectopic pregnancies in this species is proposed.
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Oviduct-specific glycoprotein and heparin modulate sperm-zona pellucida interaction during fertilization and contribute to the control of polyspermy
(2008-10-14) Saavedra, MD; Grullón, LA; Coy Fuster, Pilar; Cánovas Bernabé, Sebastián; Mondéjar Corbalán, Irene; Romar Andrés, Raquel; Matas Parra, Carmen; Avilés Sánchez, Manuel; Fisiología
Polyspermy is an important anomaly of fertilization in placental mammals, causing premature death of the embryo. It is especially frequent under in vitro conditions, complicating the successful generation of viable embryos. A block to polyspermy develops as a result of changes after sperm entry (i.e., cortical granule exocytosis). However, additional factors may play an important role in regulating polyspermy by acting on gametes before sperm-oocyte interaction. Most studies have used rodents as models, but ungulates may differ in mechanisms preventing polyspermy. We hypothesize that zona pellucida (ZP) changes during transit of the oocyte along the oviductal ampulla modulate the interaction with spermatozoa, contributing to the regulation of polyspermy. We report here that periovulatory oviductal fluid (OF) from sows and heifers increases (both, con- and heterospecifically) ZP resistance to digestion with pronase (a parameter commonly used to measure the block to polyspermy), changing from digestion times of approximately 1 min (pig) or 2 min (cattle) to 45 min (pig) or several hours (cattle). Exposure of oocytes to OF increases monospermy after in vitro fertilization in both species, and in pigs, sperm-ZP binding decreases. The resistance of OF-exposed oocytes to pronase was abolished by exposure to heparin-depleted medium; in a medium with heparin it was not altered. Proteomic analysis of the content released in the heparin-depleted medium after removal of OF-exposed oocytes allowed the isolation and identification of oviduct-specific glycoprotein. Thus, an oviduct-specific glycoprotein-heparin protein complex seems to be responsible for ZP changes in the oviduct before fertilization, affecting sperm binding and contributing to the regulation of polyspermy.
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Estudio de la expresión génica y de la composición proteica del oviducto. Efectos del fluido oviductal sobre la resistencia de la zona pelúcida a la digestión enzimática en diferentes mamíferos
(Universidad de Murcia, 2012-07-02) Mondéjar Corbalán, Irene; Coy Fuster, Pilar; Avilés Sánchez, Manuel; Departamentos y Servicios::Departamentos de la UMU::Fisiología
La fecundación en mamíferos consiste básicamente en la fusión de los gametos masculino y femenino para formar un zigoto capaz de dar lugar a un nuevo individuo. Hasta ahora, la mayoría de las investigaciones encaminadas al esclarecimiento de este proceso se han centrado en el estudio de la biología de ambos gametos como células aisladas, o bien en el estudio de los diversos mecanismos que tienen lugar durante la interacción de ambos. Sin embargo, se ha dejado un poco de lado a otro elemento fundamental y sin el cual el resto de estudios pueden resultar incompletos: el microambiente en el que tiene lugar el encuentro entre los gametos, es decir, el fluido y las células oviductales que secretan ciertos componentes de dicho fluido. La fase folicular tardía o etapa inmediatamente preovulatoria, es el momento en el que el oviducto se encuentra preparado para el encuentro de los gametos y para que se produzca la fecundación. Debido a la importancia de los factor es implicados en la unión de gametos que han de estar presentes en este momento preciso del ciclo estral y a la escasez de información acerca de los mismos, centramos nuestro estudio en esta fase. Para ello, se abordó el análisis de los componentes oviductales y sus características fundamentalmente desde cuatro perspectivas: (1) efecto del fluido oviductal (FO) sobre la resistencia a la digestión enzimática de la zona pelúcida en 9 especies, (2) fraccionamiento del FO bovino en base a su capacidad de unión a heparina, (3) análisis proteómico del FO y (4) análisis de la expresión génica del oviducto porcino. Fertilization in mammals is basically the merging of male and female gametes to form a zygote that can give rise to a new individual. So far, most research aimed at clarifying this process have focused either on the study of the biology of the spermatozoon and the oocyte as isolated cells or in the study of the various mechanisms that occur during the interaction of both. However, it has been partially left to one side to another key element without which the other studies may be incomplete: the microenvironment in which the meeting takes place between the gametes, ie the fluid and the oviductal cells that secrete some components of such a fluid. The late follicular phase or immediately pre-ovulatory phase is the time when the oviduct is prepared for the meeting of gametes and fertilization occurs. Due to the importance of the factors involved in the gametes interaction which must be present at this precise moment of the estrous cycle and the scarcity of information about them, we focused our study on this phase. To do so, it was addressed the analysis of oviductal components and features mainly from four perspectives: (1) effect of oviductal fluid (OF) on the resistance to enzymatic digestion of the zona pellucida in 9 species, (2) fractionation of the bovine oviductal fluid based on their ability to bind to heparin, (3) proteomic analysis of OF and (4) gene expression analysis of pig oviduct.
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The Oviduct: Functional Genomic and Proteomic Approach
(2012-06-11) Acuña, OS; Mondéjar Corbalán, Irene; Izquierdo Rico, María José; Coy Fuster, Pilar; Avilés Sánchez, Manuel; Avilés Sánchez, Manuel; Biología Celular e Histología; Facultades de la UMU
The mammalian oviduct is an anatomical part of the female reproductive tract, which plays several important roles in the events related to fertilization and embryo development. This review examines and compares several studies related to the proteomic and transcriptomic profile of the oviduct in different domestic animals. This information could be important for clarifying the role of oviductal factors in different events regulating fertilization and early embryo development, as well as for improving synthetic media for in vitro maturation ⁄ in vitro fertilization ⁄ embryo culture techniques (IVM ⁄ IVF ⁄ EC).
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Oocytes use the plasminogen-plasmin system to remove supernumerary spermatozoa
(2012-05-03) Grullón LA; Coy Fuster, Pilar; Jíménez Movilla, María; García Vázquez, Francisco Alberto; Mondéjar Corbalán, Irene; Romar Andrés, Raquel; Romar Andrés, Raquel; Fisiología
background: The role of the plasminogen-plasmin (PLG-PLA) system in fertilization is unknown, although its dysfunction has been associated with subfertility in humans. We have recently detected and quantified plasminogen in the oviductal fluid of two mammals and showed a reduction in sperm penetration during IVF when plasminogen is present. The objective of this study was to describe the mechanism by which PLG-PLA system regulates sperm entry into the oocyte. methods and results: By combining biochemical, functional, electron microscopic, immunocytochemical and live cell imaging methods, we show here that (i) plasminogen is activated into the protease plasmin, by gamete interaction; (ii) urokinase-type and tissuetype plasminogen activators are present in oocytes, but they are not of cortical granule origin; (iii) sperm binding to oocytes triggers the releasing of plasminogen activators and (iv) the generated plasmin causes sperm detachment from the zona pellucida. conclusions: Our results describe a novel mechanism for the success or failure of fertilization in mammals, by which molecules present in the oviductal environment are activated by molecules originating within the gametes. We anticipate that therapeutic up- or down-regulation of this physiological mechanism may be used to help in conception or as a contraceptive tool. Since components of the PLG-PLA system are already available as drugs for heart attacks or cancer therapies, basic research on this novel function would be rapidly transferable for clinical application.
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How is plasminogen/plasmin system contributing to regulate sperm entry into the oocyte?
(2013-12-30) Grullón LA; Gadea Mateos, Joaquín; Mondéjar Corbalán, Irene; Romar Andrés, Raquel; Matas Parra, Carmen; Coy Fuster, Pilar; Coy Fuster, Pilar; Fisiología; Facultades de la UMU
Plasminogen is present in the oviduct, on the zona pellucida (ZP) and on oolemma, and reduces the number of sperm penetrating the oocyte during in vitro fertilization in pig and cow. It is unknown how this reduction occurs. We tested whether plasminogen (1) changed the ZP resistance to enzymatic digestion thus making the passage of the spermatozoa across it difficult; (2) reduced the sperm functionality, assessed by sperm viability, motility, spontaneous acrosome reaction and membrane lipid disorder; or (3) affected the sperm-ZP binding before or after sperm-ZP interaction. The mechanism by which plasminogen/plasmin system contributes to regulate sperm entry into the oocyte is not inducing a ZP hardening or a decrease in sperm functionality but detaching more than 50% of sperm bound to the ZP. It is suggested that the fertilizing spermatozoon activates plasminogen into plasmin at the oocyte surface and that plasmin removes additional spermatozoa attached to the ZP.
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Identification of potential oviductal factors responsible for zona pellucida hardening and monospermy during fertilization in mammals
(2013-09-01) martinez martinez, Irene; Mondéjar Corbalán, Irene; Avilés Sánchez, Manuel; Coy Fuster, Pilar; Coy Fuster, Pilar; Fisiología